油页岩灰基NaX型沸石的合成及表征

doi:10.19286/j.cnki.cci.2022.07.039

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Abstract The NaX zeolite was synthesized by Huadian oil shale ash using sodium hydroxide alkaline fusion hydrothermal method. The effects of fusion temperature, ash to NaOH ratio, solid to liquid ratio, hydrothermal temperature and crystallization time on the crystallinity of synthesized zeolites were investigated. In addition, the synthesis process of NaX zeolite was determined, and the synthesized zeolite was characterized by nitrogen adsorption and desorption. The results show that the zeolite synthesized by this method is only the NaX zeolite. The synthesis conditions are fusion temperature of 500 ℃, ash to NaOH ratio of 1∶1.5 g/g, solid to liquid ratio of 1∶4 g/mL, hydrothermal temperature of 80 ℃ and crystallization time of 12 h. The specific surface area of the zeolite is up to 355.79 m2/g, about 281 times greater than that of raw shale ash. The pore structure of the NaX zeolite is mainly micropore and mesopore, with the average pore size of 3.60 nm and the pore volume of 0.21 cm3/g.

Key words： oil shale ash alkali fusion hydrothermal synthesis zeolite specific surface area

Corresponding Authors: 徐美（ 1980— ），女，河北沧县人，副教授。

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	Zhao Xiaosheng1
	Zhou Zicheng1
	Wang Qian2
	Xu Mei1
	Pang Yaheng1
	Kong Lingwei1

Cite this article:

Zhao Xiaosheng1,Zhou Zicheng1,Wang Qian2等. Synthesis and characterization of NaX zeolite based on the oil shale ash[J]. CCI, 2022, 45(7): 145-149，160..

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http://www.mtyhg.com.cn/EN/10.19286/j.cnki.cci.2022.07.039 OR http://www.mtyhg.com.cn/EN/Y2022/V45/I7/145

1 ] 权长青，杨云英，金仁和，等. 油页岩渣在化工与环境领域的应用[ J ]. 石油化工高等学校学报，2018，31（ 3 ）：22 - 27. [ 2 ] 何光耀，王兵，史鹏程，等. 粉煤灰基沸石分子筛的合成及应用进展[ J ]. 洁净煤技术，2021，27（ 3 ）：48 - 60. [ 3 ] 周建敏，牛显春. 油页岩灰渣的来源及综合利用技术[ J ]. 广东石油化工学院学报，2013，23（ 1 ）：11 - 14. [ 4 ] Machado N, Miotto D. Synthesis of Na-A and -X zeolites from oil shale ash[ J ]. Fuel，2005，84（ 18 ）：2 289 - 2 294. [ 5 ] Doyle A, Alismaeel Z, Albayati T, et al. High purity FAU-type zeolite catalysts from shale rock for biodiesel production[ J ]. Fuel，2017, 199: 394 - 402. [ 6 ] Bao W, Liu L, Zou H, et al, Removal of Cu2+ from aqueous solutions using Na-A Zeolite from oil shale ash[ J ]. Chinese journal of chemical engineering, 2013, 21（ 9 ）: 974 - 982. [ 7 ] 刘艳辉，薛向欣，宋海. 油页岩渣制备沸石及其吸附Cr6+性能[ J ]. 过程工程学报，2008，8（ 6 ）：1 108 - 1 111. [ 8 ] 赵雯，李函霏，吴畏. 油页岩灰渣合成P型沸石及对Co2+吸附性研究[ J ]. 硅酸盐通报，2021，40（ 5 ）：1 720 - 1 727. [ 9 ] 于思佳，高建平. X型沸石吸附性能的研究进展[ J ]. 现代盐化工，2020，47（ 5 ）：12 - 13. [ 10 ] 白书霞. 油页岩灰制备沸石分子筛及其对重金属镉吸附性能研究[ D ]. 北京：中国矿业大学（北京），2019. [ 11 ] Murayama N, Yamamoto H, Shibata J. Mechanism of zeolite syn- thesis from coal fly ash by alkali hydrothermal reaction[ J ]. International journal of mineral processing, 2002, 64( 1 ): 1 - 17. [ 12 ] Bai S, Zhou L, Chu M, et al. Synthesis of Na-X zeolite from Lo- ngkou oil shale ash by alkaline fusion hydrothermal method[ J ]. Carbon resources conversion, 2018, 1( 3 ): 245 - 250. [ 13 ] Miyake M, Kimura Y, Ohashi T, et al. Preparation of activated carbon-zeolite composite materials from coal fly ash[ J ]. Microporous and mesoporous materials, 2008, 112( 1 ): 170 - 177.